Your search keyword '"MRNA Isoforms"' showing total 164 results

1. Alternative Splicing of Pre-messenger RNA

Author

Arfelli, Vanessa Cristina, Archangelo, Leticia Fröhlich, and Passos, Geraldo A., editor

Published

2022

2. Docetaxel Resistance in Castration-Resistant Prostate Cancer: Transcriptomic Determinants and the Effect of Inhibiting Wnt/β-Catenin Signaling by XAV939.

Author

Pudova, Elena, Kobelyatskaya, Anastasiya, Katunina, Irina, Snezhkina, Anastasiya, Nyushko, Kirill, Fedorova, Maria, Pavlov, Vladislav, Bulavkina, Elizaveta, Dalina, Alexandra, Tkachev, Sergey, Alekseev, Boris, Krasnov, George, Volodin, Vsevolod, and Kudryavtseva, Anna

Subjects

*DOCETAXEL, *CASTRATION-resistant prostate cancer, *TRANSCRIPTOMES, *GENE expression

Abstract

Castration-resistant prostate cancer (CRPC) is a common form of prostate cancer in which docetaxel-based chemotherapy is used as the first line. The present study is devoted to the analysis of transcriptome profiles of tumor cells in the development of resistance to docetaxel as well as to the assessment of the combined effect with the XAV939 tankyrase inhibitor on maintaining the sensitivity of tumor cells to chemotherapy. RNA-Seq was performed for experimental PC3 cell lines as well as for plasma exosome samples from patients with CRPC. We have identified key biological processes and identified a signature based on the expression of 17 mRNA isoforms associated with the development of docetaxel resistance in PC3 cells. Transcripts were found in exosome samples, the increased expression of which was associated with the onset of progression of CRPC during therapy. The suppression of pathways associated with the participation of cellular microtubules has also been shown when cells are treated with docetaxel in the presence of XAV939. These results highlight the importance of further research into XAV939 as a therapeutic agent in the treatment of CRPC; moreover, we have proposed a number of mRNA isoforms with high predictive potential, which can be considered as promising markers of response to docetaxel. [ABSTRACT FROM AUTHOR]

Published

2022

3. Direct long-read RNA sequencing identifies a subset of questionable exitrons likely arising from reverse transcription artifacts

Author

Laura Schulz, Manuel Torres-Diz, Mariela Cortés-López, Katharina E. Hayer, Mukta Asnani, Sarah K. Tasian, Yoseph Barash, Elena Sotillo, Kathi Zarnack, Julian König, and Andrei Thomas-Tikhonenko

Subjects

Long-read sequencing, Oxford Nanopore Technologies, Alternative splicing, mRNA isoforms, Exitrons, Reverse transcription, Biology (General), QH301-705.5, Genetics, QH426-470

Abstract

Abstract Resistance to CD19-directed immunotherapies in lymphoblastic leukemia has been attributed, among other factors, to several aberrant CD19 pre-mRNA splicing events, including recently reported excision of a cryptic intron embedded within CD19 exon 2. While “exitrons” are known to exist in hundreds of human transcripts, we discovered, using reporter assays and direct long-read RNA sequencing (dRNA-seq), that the CD19 exitron is an artifact of reverse transcription. Extending our analysis to publicly available datasets, we identified dozens of questionable exitrons, dubbed “falsitrons,” that appear only in cDNA-seq, but never in dRNA-seq. Our results highlight the importance of dRNA-seq for transcript isoform validation.

Published

2021

4. Deep sequencing of pre-translational mRNPs reveals hidden flux through evolutionarily conserved alternative splicing nonsense-mediated decay pathways

Author

Carrie Kovalak, Scott Donovan, Alicia A. Bicknell, Mihir Metkar, and Melissa J. Moore

Subjects

Exon junctions, mRNA isoforms, AS-NMD, RIPiT-Seq, Pre-translational mRNPs, Splicing noise, Biology (General), QH301-705.5, Genetics, QH426-470

Abstract

Abstract Background Alternative splicing, which generates multiple mRNA isoforms from single genes, is crucial for the regulation of eukaryotic gene expression. The flux through competing splicing pathways cannot be determined by traditional RNA-Seq, however, because different mRNA isoforms can have widely differing decay rates. Indeed, some mRNA isoforms with extremely short half-lives, such as those subject to translation-dependent nonsense-mediated decay (AS-NMD), may be completely overlooked in even the most extensive RNA-Seq analyses. Results RNA immunoprecipitation in tandem (RIPiT) of exon junction complex components allows for purification of post-splicing mRNA-protein particles (mRNPs) not yet subject to translation (pre-translational mRNPs) and, therefore, translation-dependent mRNA decay. Here we compare exon junction complex RIPiT-Seq to whole cell RNA-Seq data from HEK293 cells. Consistent with expectation, the flux through known AS-NMD pathways is substantially higher than that captured by RNA-Seq. Our RIPiT-Seq also definitively demonstrates that the splicing machinery itself has no ability to detect reading frame. We identify thousands of previously unannotated splicing events; while many can be attributed to splicing noise, others are evolutionarily conserved events that produce new AS-NMD isoforms likely involved in maintenance of protein homeostasis. Several of these occur in genes whose overexpression has been linked to poor cancer prognosis. Conclusions Deep sequencing of RNAs in post-splicing, pre-translational mRNPs provides a means to identify and quantify splicing events without the confounding influence of differential mRNA decay. For many known AS-NMD targets, the nonsense-mediated decay-linked alternative splicing pathway predominates. Exon junction complex RIPiT-Seq also revealed numerous conserved but previously unannotated AS-NMD events.

Published

2021

5. A compensatory link between cleavage/polyadenylation and mRNA turnover regulates steady-state mRNA levels in yeast.

Author

Moqtaderi, Zarmik, Geisberg, Joseph V., and Struhl, Kevin

Subjects

*MESSENGER RNA, *YEAST, *SALES, *BUSINESS turnover

Abstract

Cells have compensatory mechanisms to coordinate the rates of major biological processes, thereby permitting growth in a wide variety of conditions. Here, we uncover a compensatory link between cleavage/polyadenylation in the nucleus and messenger RNA (mRNA) turnover in the cytoplasm. On a global basis, samegene 30 mRNA isoforms with twofold or greater differences in half-lives have steady-state mRNA levels that differ by significantly less than a factor of 2. In addition, increased efficiency of cleavage/polyadenylation at a specific site is associated with reduced stability of the corresponding 30 mRNA isoform. This inverse relationship between cleavage/polyadenylation and mRNA isoform half-life reduces the variability in the steady-state levels of mRNA isoforms, and it occurs in all four growth conditions tested. These observations suggest that during cleavage/polyadenylation in the nucleus, mRNA isoforms are marked in a manner that persists upon translocation to the cytoplasm and affects the activity of mRNA degradation machinery, thus influencing mRNA stability. [ABSTRACT FROM AUTHOR]

Published

2022

6. Sierra: discovery of differential transcript usage from polyA-captured single-cell RNA-seq data

Author

Ralph Patrick, David T. Humphreys, Vaibhao Janbandhu, Alicia Oshlack, Joshua W.K. Ho, Richard P. Harvey, and Kitty K. Lo

Subjects

scRNA-seq, Alternative polyadenylation, mRNA isoforms, Differential transcript use, Biology (General), QH301-705.5, Genetics, QH426-470

Abstract

Abstract High-throughput single-cell RNA-seq (scRNA-seq) is a powerful tool for studying gene expression in single cells. Most current scRNA-seq bioinformatics tools focus on analysing overall expression levels, largely ignoring alternative mRNA isoform expression. We present a computational pipeline, Sierra, that readily detects differential transcript usage from data generated by commonly used polyA-captured scRNA-seq technology. We validate Sierra by comparing cardiac scRNA-seq cell types to bulk RNA-seq of matched populations, finding significant overlap in differential transcripts. Sierra detects differential transcript usage across human peripheral blood mononuclear cells and the Tabula Muris, and 3 ′UTR shortening in cardiac fibroblasts. Sierra is available at https://github.com/VCCRI/Sierra .

Published

2020

7. Isoform-specific NF1 mRNA levels correlate with disease severity in Neurofibromatosis type 1

Author

Antonia Assunto, Ursula Ferrara, Alessandro De Luca, Claudia Pivonello, Lisa Lombardo, Annapina Piscitelli, Cristina Tortora, Valentina Pinna, Paola Daniele, Rosario Pivonello, Maria Giovanna Russo, Giuseppe Limongelli, Annamaria Colao, Marco Tartaglia, Pietro Strisciuglio, and Daniela Melis

Subjects

NF1, Neurofibromatosis type 1, Alternative splicing, Gene expression, mRNA isoforms, Phenotypic expressivity, Medicine

Abstract

Abstract Background Neurofibromatosis type 1 (NF1) is characterized by an extreme clinical variability both within and between families that cannot be explained solely by the nature of the pathogenic NF1 gene mutations. A proposed model hypothesizes that variation in the levels of protein isoforms generated via alternative transcript processing acts as modifier and contributes to phenotypic variability. Results Here we used real-time quantitative PCR to investigate the levels of two major NF1 mRNA isoforms encoding proteins differing in their ability to control RAS signaling (isoforms I and II) in the peripheral blood leukocytes of 138 clinically well-characterized NF1 patients and 138 aged-matched healthy controls. As expected, expression analysis showed that NF1 isoforms I and II levels were significantly lower in patients than controls. Notably, these differences were more evident when patients were stratified according to the severity of phenotype. Moreover, a correlation was identified when comparing the levels of isoform I mRNA and the severity of NF1 features, with statistically significant lower levels associated with a severe phenotype (i.e., occurrence of learning disability/intellectual disability, optic gliomas and/or other neoplasias, and/or cerebrovascular disease) as well as in patients with cognitive impairment. Conclusions The present findings provide preliminary evidence for a role of circuits controlling NF1 transcript processing in modulating NF1 expressivity, and document an association between the levels of neurofibromin isoform I mRNA and the severity of phenotype and cognitive impairment in NF1.

Published

2019

8. Alternative polyadenylation produces multiple 3’ untranslated regions of odorant receptor mRNAs in mouse olfactory sensory neurons

Author

Mohamed Doulazmi, Cyril Cros, Isabelle Dusart, Alain Trembleau, and Caroline Dubacq

Subjects

Odorant receptors, Olfr genes, 3′ untranslated region, mRNA isoforms, Alternative polyadenylation, Adult olfactory mucosa, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background Odorant receptor genes constitute the largest gene family in mammalian genomes and this family has been extensively studied in several species, but to date far less attention has been paid to the characterization of their mRNA 3′ untranslated regions (3’UTRs). Given the increasing importance of UTRs in the understanding of RNA metabolism, and the growing interest in alternative polyadenylation especially in the nervous system, we aimed at identifying the alternative isoforms of odorant receptor mRNAs generated through 3’UTR variation. Results We implemented a dedicated pipeline using IsoSCM instead of Cufflinks to analyze RNA-Seq data from whole olfactory mucosa of adult mice and obtained an extensive description of the 3’UTR isoforms of odorant receptor mRNAs. To validate our bioinformatics approach, we exhaustively analyzed the 3’UTR isoforms produced from 2 pilot genes, using molecular approaches including northern blot and RNA ligation mediated polyadenylation test. Comparison between datasets further validated the pipeline and confirmed the alternative polyadenylation patterns of odorant receptors. Qualitative and quantitative analyses of the annotated 3′ regions demonstrate that 1) Odorant receptor 3’UTRs are longer than previously described in the literature; 2) More than 77% of odorant receptor mRNAs are subject to alternative polyadenylation, hence generating at least 2 detectable 3’UTR isoforms; 3) Splicing events in 3’UTRs are restricted to a limited subset of odorant receptor genes; and 4) Comparison between male and female data shows no sex-specific differences in odorant receptor 3’UTR isoforms. Conclusions We demonstrated for the first time that odorant receptor genes are extensively subject to alternative polyadenylation. This ground-breaking change to the landscape of 3’UTR isoforms of Olfr mRNAs opens new avenues for investigating their respective functions, especially during the differentiation of olfactory sensory neurons.

Published

2019

9. MUC1

Author

Finn, Olivera, Zhang, Lixin, and Marshall, John L., editor

Published

2017

10. The Human TET2 Gene Contains Three Distinct Promoter Regions With Differing Tissue and Developmental Specificities

Author

Hong Lou, Hongchuan Li, Kevin J. Ho, Luke L. Cai, Andy S. Huang, Tyler R. Shank, Michael R. Verneris, Michael L. Nickerson, Michael Dean, and Stephen K. Anderson

Subjects

human, TET2, alternative promoters, demethylation, differentiation, mRNA isoforms, Biology (General), QH301-705.5

Abstract

Tet methylcytosine dioxygenase 2 (TET2) is a tumor suppressor gene that is inactivated in a wide range of hematological cancers. TET2 enzymatic activity converts 5-methylcytosine (5-mC) into 5-hydroxymethylcytosine (5-hmC), an essential step in DNA demethylation. Human TET2 is highly expressed in pluripotent cells and down-regulated in differentiated cells: however, transcriptional regulation of the human TET2 gene has not been investigated in detail. Here we define three promoters within a 2.5 kb region located ∼ 87 kb upstream of the first TET2 coding exon. The three promoters, designated as Pro1, Pro2, and Pro3, generate three alternative first exons, and their presence in TET2 mRNAs varies with cell type and developmental stage. In general, all three TET2 transcripts are more highly expressed in human tissues rich in hematopoietic stem cells, such as spleen and bone marrow, compared to other tissues, such as brain and kidney. Transcripts from Pro2 are expressed by a broad range of tissues and at a significantly higher level than Pro1 or Pro3 transcripts. Pro3 transcripts were highly expressed by embryoid bodies generated from the H9 ES cell line, and the major Pro3 transcript is an alternatively spliced mRNA isoform that produces a truncated TET2 protein lacking the catalytic domain. Our study demonstrates distinct tissue-specific mechanisms of TET2 transcriptional regulation during early pluripotent states and in differentiated cell types.

Published

2019

11. PD-1 in human NK cells: evidence of cytoplasmic mRNA and protein expression

Author

Francesca R. Mariotti, Stefania Petrini, Tiziano Ingegnere, Nicola Tumino, Francesca Besi, Francesca Scordamaglia, Enrico Munari, Silvia Pesce, Emanuela Marcenaro, Alessandro Moretta, Paola Vacca, and Lorenzo Moretta

Subjects

natural killer cells, checkpoint inhibitors, pd-1, cd56dim cd56bright, mrna isoforms, pd-1 cytoplasmic pool, Immunologic diseases. Allergy, RC581-607, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Under physiological conditions, PD-1/PD-L1 interactions regulate unwanted over-reactions of immune cells and contribute to maintain peripheral tolerance. However, in tumor microenvironment, this interaction may greatly compromise the immune-mediated anti-tumor activity. PD-1+ NK cells have been detected in high percentage in peripheral blood and ascitic fluid of ovarian carcinoma patients. To acquire information on PD-1 expression and physiology in human NK cells, we analyzed whether PD-1 mRNA and protein are present in resting, surface PD-1−, NK cells from healthy donors. Both different splicing isoforms of PD-1 mRNA and a cytoplasmic pool of PD-1 protein were detected. Similar results were obtained also from both in vitro-activated and tumor-associated NK cells. PD-1 mRNA and protein were higher in CD56dim than in CD56bright NK cells. Confocal microscopy analyses revealed that PD-1 protein is present in virtually all NK cells analyzed. The present findings are compatible with a rapid surface expression of PD-1 in NK cells in response to appropriate, still undefined, stimuli.

Published

2019

12. Nano3'RACE: A Method to Analyze Poly(A) Tail Length and Nucleotide Additions at the 3' Extremity of Selected mRNAs Using Nanopore Sequencing.

Author

Giraudo P, Simonnot Q, Pflieger D, Peter J, Gagliardi D, and Zuber H

Subjects

RNA, Messenger genetics, RNA, Messenger metabolism, Poly A genetics, Poly A metabolism, Nucleotides, Nanopore Sequencing

Abstract

Deadenylation is a major process that regulates gene expression by shaping the length of mRNA poly(A) tails. Deadenylation is controlled by factors in trans that recruit or impede deadenylases, by the incorporation of non-adenosines during poly(A) tail synthesis, and by the posttranscriptional addition of 3' nucleotides to poly(A) tails. Deciphering the regulation of poly(A) tail shortening requires both transcriptome-wide approaches and more targeted methodologies, allowing deep analyses of specific mRNAs. In this chapter, we present Nano3'RACE, a nanopore-based cDNA sequencing method that allows in-depth analysis to precisely measure poly(A) tail length and detect 3' terminal nucleotide addition, such as uridylation, for mRNAs of interest., (© 2024. This is a U.S. government work and not under copyright protection in the U.S.; foreign copyright protection may apply.)

Published

2024

13. Isoform-specific NF1 mRNA levels correlate with disease severity in Neurofibromatosis type 1.

Author

Assunto, Antonia, Ferrara, Ursula, De Luca, Alessandro, Pivonello, Claudia, Lombardo, Lisa, Piscitelli, Annapina, Tortora, Cristina, Pinna, Valentina, Daniele, Paola, Pivonello, Rosario, Russo, Maria Giovanna, Limongelli, Giuseppe, Colao, Annamaria, Tartaglia, Marco, Strisciuglio, Pietro, and Melis, Daniela

Subjects

*NEUROFIBROMATOSIS 1, *COGNITION disorders, *MESSENGER RNA, *LEARNING disabilities, *CEREBROVASCULAR disease, *MONONUCLEAR leukocytes

Abstract

Background: Neurofibromatosis type 1 (NF1) is characterized by an extreme clinical variability both within and between families that cannot be explained solely by the nature of the pathogenic NF1 gene mutations. A proposed model hypothesizes that variation in the levels of protein isoforms generated via alternative transcript processing acts as modifier and contributes to phenotypic variability.Results: Here we used real-time quantitative PCR to investigate the levels of two major NF1 mRNA isoforms encoding proteins differing in their ability to control RAS signaling (isoforms I and II) in the peripheral blood leukocytes of 138 clinically well-characterized NF1 patients and 138 aged-matched healthy controls. As expected, expression analysis showed that NF1 isoforms I and II levels were significantly lower in patients than controls. Notably, these differences were more evident when patients were stratified according to the severity of phenotype. Moreover, a correlation was identified when comparing the levels of isoform I mRNA and the severity of NF1 features, with statistically significant lower levels associated with a severe phenotype (i.e., occurrence of learning disability/intellectual disability, optic gliomas and/or other neoplasias, and/or cerebrovascular disease) as well as in patients with cognitive impairment.Conclusions: The present findings provide preliminary evidence for a role of circuits controlling NF1 transcript processing in modulating NF1 expressivity, and document an association between the levels of neurofibromin isoform I mRNA and the severity of phenotype and cognitive impairment in NF1. [ABSTRACT FROM AUTHOR]

Published

2019

14. Identification of Functional Single Nucleotide Polymorphisms Responsible for Alternative Splicing Affecting Gastrointestinal Nematodes Resistance in Grazing Sheep.

Author

Cunha, Samla M. F., Willoughby, Olivia B., Schenkel, Flavio S., Mallard, Bonnie, Karrow, Niel A., and Cánovas, Angela

Subjects

*ALTERNATIVE RNA splicing, *SINGLE nucleotide polymorphisms, *RNA splicing, *HAEMONCHUS contortus, *SHEEP, *GRAZING, *CHOLESTEROL metabolism

Abstract

Sheep infected with gastrointestinal nematodes (GIN) can show weight loss, anemia, diarrhea, decrease appetite, and hypoproteinemia, which can sometimes lead to death. These signs of infection decrease productivity and cause economic losses. Economic losses can also be associated with treatment without efficacy due to GIN resistance to most anthelmintic classes. Combined approaches need to be used to reduce the reliance on anthelmintic as the only control method to GIN. The aim of this study is the identification of potential functional single nucleotide polymorphisms (SNPs) responsible for alternate splicing in Rideau X Dorset crossbred sheep with different immune profiles using RNA-Sequencing (RNASeq). Animals were exposed to GIN while grazing, after that those with the greatest and least gastrointestinal tract parasite burdens were selected for liver RNA extracting. These animals can be separated into groups of high (H; n = 5) and medium (M; n = 6) innate immune responses. In addition, liver RNA was extracted for GIN-unexposed control lambs (U; n = 4). RNA-Seq analysis was performed using the CLC genomics workbench software, version 20.0.4 (CLC Bio, Aarhus, Denmark). Quality control analyses, including guanine-cytosine (GC) content, ambiguous base content, Phred score, base coverage, nucleotide contributions, and over-represented sequences parameters, were performed on fastq files. Sequence reads were aligned to the annotated Oar_rambouillet_v.1 (release 109) ovine reference genome. After filtering steps, mRNA isoforms with multiple (- 2) expressed mRNA isoforms with at least one mRNA isoform differently expressed (DE) between H- and M-innate immune response and GIN-unexposed control groups (FDR < 0.05 and |FC| > 2) were keep. A total of 1, 75, and 58 DE mRNA isoforms were identified for M versus H, U versus M, and U versus H comparisons, respectively. Gene ontology (GO) analysis including the biological process, molecular function, and cellular component GO categories and metabolic pathways analysis were performed using STRING-db software. Enriched biological processes and metabolic pathways related to the immune system, as well as cholesterol and other sterol metabolism (e.g., sterol biosynthesis, steroid metabolism, cholesterol biosynthesis, cholesterol metabolism, ascorbate and aldarate metabolism, drug metabolism, and terpenoid biosynthesis) were identified (FDR < 0.05). Next, the list of DE mRNA isoforms identified will be deeply studied by performing SNP discovery analysis to validate if specific functional SNPs are responsible for the alternative splicing affecting GIN resistance in grazing sheep. The complete results will help to better understand the biological mechanisms that may be regulating the immune response to GIN. Candidate functional SNPs have the potential to be included in a commercial SNP panel for selection of more resistant animals to improve GIN resistance in sheep flocks. [ABSTRACT FROM AUTHOR]

Published

2023

15. Androgen-dependent alternative mRNA isoform expression in prostate cancer cells [version 1; referees: 3 approved]

Author

Jennifer Munkley, Teresa M. Maia, Nekane Ibarluzea, Karen E. Livermore, Daniel Vodak, Ingrid Ehrmann, Katherine James, Prabhakar Rajan, Nuno L. Barbosa-Morais, and David J. Elliott

Subjects

Research Article, Articles, Androgens, AR, prostate cancer, alternative splicing, alternative promoters, alternative 3' ends, transcription, mRNA isoforms

Abstract

Background: Androgen steroid hormones are key drivers of prostate cancer. Previous work has shown that androgens can drive the expression of alternative mRNA isoforms as well as transcriptional changes in prostate cancer cells. Yet to what extent androgens control alternative mRNA isoforms and how these are expressed and differentially regulated in prostate tumours is unknown. Methods: Here we have used RNA-Seq data to globally identify alternative mRNA isoform expression under androgen control in prostate cancer cells, and profiled the expression of these mRNA isoforms in clinical tissue. Results: Our data indicate androgens primarily switch mRNA isoforms through alternative promoter selection. We detected 73 androgen regulated alternative transcription events, including utilisation of 56 androgen-dependent alternative promoters, 13 androgen-regulated alternative splicing events, and selection of 4 androgen-regulated alternative 3′ mRNA ends. 64 of these events are novel to this study, and 26 involve previously unannotated isoforms. We validated androgen dependent regulation of 17 alternative isoforms by quantitative PCR in an independent sample set. Some of the identified mRNA isoforms are in genes already implicated in prostate cancer (including LIG4, FDFT1 and RELAXIN), or in genes important in other cancers (e.g. NUP93 and MAT2A). Importantly, analysis of transcriptome data from 497 tumour samples in the TGCA prostate adenocarcinoma (PRAD) cohort identified 13 mRNA isoforms (including TPD52, TACC2 and NDUFV3) that are differentially regulated in localised prostate cancer relative to normal tissue, and 3 ( OSBPL1A, CLK3 and TSC22D3) which change significantly with Gleason grade and tumour stage. Conclusions: Our findings dramatically increase the number of known androgen regulated isoforms in prostate cancer, and indicate a highly complex response to androgens in prostate cancer cells that could be clinically important.

Published

2018

16. Absolute Quantification of mRNA Isoforms in Adult Stem Cells Using Microfluidic Digital PCR.

Author

Barman SD, Frimand Z, and De Morree A

Abstract

Adult stem cells play key roles in homeostasis and tissue repair. These cells are regulated by a tight control of transcriptional programs. For example, muscle stem cells (MuSCs), located beneath the basal lamina, exist in the quiescent state but can transition to an activated, proliferative state upon injury. The control of MuSC state depends on the expression levels of myogenic transcription factors. Recent studies revealed the presence of different mRNA isoforms, with distinct biological regulation. Quantifying the exact expression levels of the mRNA isoforms encoding these myogenic transcription factors is therefore key to understanding how MuSCs switch between cell states. Previously, quantitative real-time polymerase chain reaction (qRT-PCR) has been used to quantify RNA expression levels. However, qRT-PCR depends on large amounts of RNA input and only measures relative abundance. Here, we present a protocol for the absolute quantification of mRNA isoforms using microfluidic digital PCR (mdPCR). Primary MuSCs isolated from individual skeletal muscles (gastrocnemius and masseter) are lysed, and their RNA is reverse-transcribed into cDNA and copied into double-stranded DNA. Following exonuclease I digestion to remove remaining single-stranded DNA, the samples are loaded onto a mdPCR chip with TaqMan probes targeting the mRNA isoforms of interest, whereupon target molecules are amplified in nanoliter chambers. We demonstrate that mdPCR can give exact molecule counts per cell for mRNA isoforms encoding the myogenic transcription factor Pax3. This protocol enables the absolute quantification of low abundant mRNA isoforms in a fast, precise, and reliable way., Competing Interests: Competing interestsThe authors have no competing financial interests and no conflicts of interest., (©Copyright : © 2023 The Authors; This is an open access article under the CC BY-NC license.)

Published

2023

17. Docetaxel Resistance in Castration-Resistant Prostate Cancer: Transcriptomic Determinants and the Effect of Inhibiting Wnt/β-Catenin Signaling by XAV939

Author

Elena Pudova, Anastasiya Kobelyatskaya, Irina Katunina, Anastasiya Snezhkina, Kirill Nyushko, Maria Fedorova, Vladislav Pavlov, Elizaveta Bulavkina, Alexandra Dalina, Sergey Tkachev, Boris Alekseev, George Krasnov, Vsevolod Volodin, and Anna Kudryavtseva

Subjects

Male, Organic Chemistry, Antineoplastic Agents, General Medicine, Docetaxel, Catalysis, Computer Science Applications, Inorganic Chemistry, Prostatic Neoplasms, Castration-Resistant, Drug Resistance, Neoplasm, Cell Line, Tumor, RNA Isoforms, CRPC, RNA-Seq, docetaxel, resistance, XAV939, transcriptomics, expression, pathways, mRNA isoforms, exosomes, Humans, Physical and Theoretical Chemistry, Transcriptome, Molecular Biology, Spectroscopy, beta Catenin

Abstract

Castration-resistant prostate cancer (CRPC) is a common form of prostate cancer in which docetaxel-based chemotherapy is used as the first line. The present study is devoted to the analysis of transcriptome profiles of tumor cells in the development of resistance to docetaxel as well as to the assessment of the combined effect with the XAV939 tankyrase inhibitor on maintaining the sensitivity of tumor cells to chemotherapy. RNA-Seq was performed for experimental PC3 cell lines as well as for plasma exosome samples from patients with CRPC. We have identified key biological processes and identified a signature based on the expression of 17 mRNA isoforms associated with the development of docetaxel resistance in PC3 cells. Transcripts were found in exosome samples, the increased expression of which was associated with the onset of progression of CRPC during therapy. The suppression of pathways associated with the participation of cellular microtubules has also been shown when cells are treated with docetaxel in the presence of XAV939. These results highlight the importance of further research into XAV939 as a therapeutic agent in the treatment of CRPC; moreover, we have proposed a number of mRNA isoforms with high predictive potential, which can be considered as promising markers of response to docetaxel.

Published

2022

18. Investigation of Experimental Factors That Underlie BRCA1/2 mRNA Isoform Expression Variation: Recommendations for Utilizing Targeted RNA Sequencing to Evaluate Potential Spliceogenic Variants.

Author

Lattimore, Vanessa L., Pearson, John F., Currie, Margaret J., Spurdle, Amanda B., Robinson, Bridget A., and Walker, Logan C.

Subjects

BRCA genes, GENE expression, RNA splicing

Abstract

PCR-based RNA splicing assays are commonly used in diagnostic and research settings to assess the potential effects of variants of uncertain clinical significance in BRCA1 and BRCA2. The Evidence-based Network for the Interpretation of Germline Mutant Alleles (ENIGMA) consortium completed a multicentre investigation to evaluate differences in assay design and the integrity of published data, raising a number of methodological questions associated with cell culture conditions and PCR-based protocols. We utilized targeted RNA-seq to re-assess BRCA1 and BRCA2 mRNA isoform expression patterns in lymphoblastoid cell lines (LCLs) previously used in the multicentre ENIGMA study. Capture of the targeted cDNA sequences was carried out using 34 BRCA1 and 28 BRCA2 oligonucleotides from the Illumina Truseq Targeted RNA Expression platform. Our results show that targeted RNA-seq analysis of LCLs overcomes many of the methodology limitations associated with PCR-based assays leading us to make the following observations and recommendations: (1) technical replicates (n > 2) of variant carriers to capture methodology induced variability associated with RNA-seq assays, (2) LCLs can undergo multiple freeze/thaw cycles and can be cultured up to 2 weeks without noticeably influencing isoform expression levels, (3) nonsense-mediated decay inhibitors are essential prior to splicing assays for comprehensive mRNA isoform detection, (4) quantitative assessment of exon:exon junction levels across BRCA1 and BRCA2 can help distinguish between normal and aberrant isoform expression patterns. Experimentally derived recommendations from this study will facilitate the application of targeted RNA-seq platforms for the quantitation of BRCA1 and BRCA2 mRNA aberrations associated with sequence variants of uncertain clinical significance. [ABSTRACT FROM AUTHOR]

Published

2018

19. From transcriptional complexity to cellular phenotypes: Lessons from yeast.

Author

Pelechano, Vicent

Abstract

Pervasive transcription has been reported in many eukaryotic organisms, revealing a highly interleaved transcriptome organization that involves thousands of coding and non-coding RNAs. However, to date, the biological impact of transcriptome complexity is still poorly understood. Here I will review how subtle variations of the transcriptome can lead to divergent cellular phenotypes by fine-tuning both its coding potential and regulation. I will discuss strategies that can be used to link molecular variations with divergent biological outcomes. Finally, I will explore the implication of transcriptional complexity for our understanding of gene expression in the context of cell-to-cell phenotypic variability. Copyright © 2017 John Wiley & Sons, Ltd. [ABSTRACT FROM AUTHOR]

Published

2017

20. Nanopore sequencing reveals endogenous NMD-targeted isoforms in human cells

Author

Karousis, Evangelos D., Gypas, Foivos, Zavolan, Mihaela, and Mühlemann, Oliver

Published

2021

21. Direct long-read RNA sequencing identifies a subset of questionable exitrons likely arising from reverse transcription artifacts

Author

Schulz, Laura, Torres-Diz, Manuel, Cortés-López, Mariela, Hayer, Katharina E., Asnani, Mukta, Tasian, Sarah K., Barash, Yoseph, Sotillo, Elena, Zarnack, Kathi, König, Julian, and Thomas-Tikhonenko, Andrei

Published

2021

22. Deep sequencing of pre-translational mRNPs reveals hidden flux through evolutionarily conserved alternative splicing nonsense-mediated decay pathways

Author

Kovalak, Carrie, Donovan, Scott, Bicknell, Alicia A., Metkar, Mihir, and Moore, Melissa J.

Published

2021

23. Experiments with Snails Add to Our Knowledge about the Role of aPKC Subfamily Kinases in Learning

Author

Ekaterina Chesnokova, Alena Zuzina, Natalia Bal, Aliya Vinarskaya, Matvey Roshchin, Alexander Artyuhov, Erdem Dashinimaev, Nikolay Aseyev, Pavel Balaban, and Peter Kolosov

Subjects

atypical PKCs, PKMζ, mollusks, Helix lucorum, mRNA isoforms, mRNA expression, 5′-RACE, learning and memory, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Protein kinase Mζ is considered important for memory formation and maintenance in different species, including invertebrates. PKMζ participates in multiple molecular pathways in neurons, regulating translation initiation rate, AMPA receptors turnover, synaptic scaffolding assembly, and other processes. Here, for the first time, we established the sequence of mRNA encoding PKMζ homolog in land snail Helix lucorum. We annotated important features of this mRNA: domains, putative capping sites, translation starts, and splicing sites. We discovered that this mRNA has at least two isoforms, and one of them lacks sequence encoding C1 domain. C1 deletion may be unique for snail because it has not been previously found in other species. We performed behavioral experiments with snails, measured expression levels of identified isoforms, and confirmed that their expression correlates with one type of learning.

Published

2019

24. The Evolutionary Relationship between Alternative Splicing and Gene Duplication.

Author

Iñiguez, Luis P. and Hernández, Georgina

Subjects

ALTERNATIVE RNA splicing, CHROMOSOME duplication, BIOLOGICAL evolution

Abstract

The protein diversity that exists today has resulted from various evolutionary processes. It is well known that gene duplication (GD) along with the accumulation of mutations are responsible, among other factors, for an increase in the number of different proteins. The gene structure in eukaryotes requires the removal of non-coding sequences, introns, to produce mature mRNAs. This process, known as cis-splicing, referred to here as splicing, is regulated by several factors which can lead to numerous splicing arrangements, commonly designated as alternative splicing (AS). AS, producing several transcripts isoforms form a single gene, also increases the protein diversity. However, the evolution and manner for increasing protein variation differs between AS and GD. An important question is how are patterns of AS affected after a GD event. Here, we review the current knowledge of AS and GD, focusing on their evolutionary relationship. These two processes are now considered the main contributors to the increasing protein diversity and therefore their relationship is a relevant, yet understudied, area of evolutionary study. [ABSTRACT FROM AUTHOR]

Published

2017

25. A compensatory link between cleavage/polyadenylation and mRNA turnover regulates steady-state mRNA levels in yeast

Author

Zarmik Moqtaderi, Joseph V. Geisberg, and Kevin Struhl

Subjects

RNA Cleavage, Multidisciplinary, mRNA isoforms, RNA Stability, Cell Biology, Biological Sciences, Polyadenylation, mRNA decay, Yeasts, RNA Isoforms, mRNA stability, RNA, Messenger, 3' Untranslated Regions

Abstract

Significance Cells coordinate the rates of major biological processes in response to environmental conditions such as nutrient availability and temperature. Coordination mechanisms in which effects on one process are compensated for by effects on another process maintain an appropriate cellular balance. Here, we uncover a compensatory link between cleavage/polyadenylation, which generates poly(A) tails at mRNA 3′ ends, and mRNA decay. This compensatory link suggests that during cleavage/polyadenylation in the nucleus, mRNA isoforms are marked in a manner that persists upon translocation to the cytoplasm. This mark affects the activity of mRNA degradation machinery, thus influencing mRNA stability and allowing cells to maintain relatively similar levels of mRNA isoforms even when cleavage/polyadenylation rates change in response to environmental conditions., Cells have compensatory mechanisms to coordinate the rates of major biological processes, thereby permitting growth in a wide variety of conditions. Here, we uncover a compensatory link between cleavage/polyadenylation in the nucleus and messenger RNA (mRNA) turnover in the cytoplasm. On a global basis, same-gene 3′ mRNA isoforms with twofold or greater differences in half-lives have steady-state mRNA levels that differ by significantly less than a factor of 2. In addition, increased efficiency of cleavage/polyadenylation at a specific site is associated with reduced stability of the corresponding 3′ mRNA isoform. This inverse relationship between cleavage/polyadenylation and mRNA isoform half-life reduces the variability in the steady-state levels of mRNA isoforms, and it occurs in all four growth conditions tested. These observations suggest that during cleavage/polyadenylation in the nucleus, mRNA isoforms are marked in a manner that persists upon translocation to the cytoplasm and affects the activity of mRNA degradation machinery, thus influencing mRNA stability.

Published

2022

26. Prognostic Potential of Alternative Splicing Markers in Endometrial Cancer

Author

Tong Yu, Qian Wang, Jianchao Ying, Teng Xu, Weijian Zhu, Zhongqiu Lu, and Jianbo Wu

Subjects

0301 basic medicine, overall survival, Computational biology, Biology, Article, 03 medical and health sciences, alternative splicing, 0302 clinical medicine, Drug Discovery, medicine, Overall survival, prognostic model, Endometrial cancer, Alternative splicing, lcsh:RM1-950, medicine.disease, 030104 developmental biology, lcsh:Therapeutics. Pharmacology, 030220 oncology & carcinogenesis, Risk stratification, RNA splicing, endometrial cancer, MRNA Isoforms, Molecular Medicine, Biomarker (medicine), biomarker, Signal transduction

Abstract

Alternative splicing (AS), an important post-transcriptional regulatory mechanism that regulates the translation of mRNA isoforms and generates protein diversity, has been widely demonstrated to be associated with oncogenic processes. In this study, we systematically analyzed genome-wide AS patterns to explore the prognostic implications of AS in endometrial cancer (EC). A total of 2,324 AS events were identified as being associated with the overall survival of EC patients, and eleven of these events were further selected using a random forest algorithm. With the implementation of a generalized, boosted regression model, a prognostic AS model that aggregated these eleven markers was ultimately established with high performance for risk stratification in EC patients. Functional analysis of these eleven AS markers revealed various potential signaling pathways implicated in the progression of EC. Splicing network analysis demonstrated the notable correlation between the expression of splicing factors and AS markers in EC and further determined eight candidate splicing factors that could be therapeutic targets for EC. Taken together, the results of this study present the utility of AS profiling in identifying biomarkers for the prognosis of EC and provide comprehensive insight into the molecular mechanisms involved in EC processes. Keywords: alternative splicing, biomarker, prognostic model, endometrial cancer, overall survival

Published

2019

27. Secondary structures involving the poly(A) tail and other 3’ sequences are major determinants of mRNA isoform stability in yeast

Author

Zarmik Moqtaderi, Joseph V. Geisberg, and Kevin Struh

Subjects

mRNA isoforms, mRNA stability, polyU element, poly(A) tail, mRNA structure, Saccharomyces cerevisiae, Biology (General), QH301-705.5

Abstract

In Saccharomyces cerevisiae, previous measurements of mRNA stabilities have been determined on a per-gene basis. We and others have recently shown that yeast genes give rise to a highly heterogeneous population of mRNAs due to extensive alternative 3’ end formation. Typical genes can have fifty or more distinct mRNA isoforms with 3’ endpoints differing by as little as one and as many as hundreds of nucleotides. In our recent paper [Geisberg et al. Cell (2014) 156: 812-824] we measured half-lives of individual mRNA isoforms in Saccharomyces cerevisiae by using the anchor away method for the rapid removal of Rpb1, the largest subunit of RNA Polymerase II, from the nucleus, followed by direct RNA sequencing of the cellular mRNA population over time. Combining these two methods allowed us to determine half-lives for more than 20,000 individual mRNA isoforms originating from nearly 5000 yeast genes. We discovered that different 3’ mRNA isoforms arising from the same gene can have widely different stabilities, and that such half-life variability across mRNA isoforms from a single gene is highly prevalent in yeast cells. Determining half-lives for many different mRNA isoforms from the same genes allowed us to identify hundreds of RNA sequence elements involved in the stabilization and destabilization of individual isoforms. In many cases, the poly(A) tail is likely to participate in the formation of stability - enhancing secondary structures at mRNA 3’ ends. Our results point to an important role for mRNA structure at 3’ termini in governing transcript stability, likely by reducing the interaction of the mRNA with the degradation apparatus.

Published

2014

28. Nanopore sequencing reveals endogenous NMD-targeted isoforms in human cells

Author

Evangelos D. Karousis, Mihaela Zavolan, Oliver Muehlemann, and Foivos Gypas

Subjects

Gene isoform, Nanopore sequencing, cDNA sequencing, QH301-705.5, RNA Splicing, RNA Stability, Nonsense-mediated decay, Nonsense-mediated mRNA decay, Computational biology, QH426-470, Biology, Transcriptome, transcriptomics, Exon, 540 Chemistry, Genetics, Humans, Protein Isoforms, NMD, RNA, Messenger, Long-read sequencing, Biology (General), mRNA isoforms, Telomerase, Gene, Regulation of gene expression, Gene knockdown, Research, Exons, Genomics, Stop codon, Cell biology, Nonsense Mediated mRNA Decay, Codon, Nonsense, mRNA degradation, RNA splicing, 570 Life sciences, biology, Carrier Proteins, HeLa Cells

Abstract

BackgroundNonsense-mediated mRNA decay (NMD) is a eukaryotic, translation-dependent degradation pathway that targets mRNAs with premature termination codons and also regulates the expression of some mRNAs that encode full-length proteins. Although many genes express NMD-sensitive transcripts, identifying them based on short-read sequencing data remains a challenge.ResultsTo identify and analyze endogenous targets of NMD, we applied cDNA Nanopore sequencing and short-read sequencing to human cells with varying expression levels of NMD factors. Our approach detects full-length NMD substrates that are highly unstable and increase in levels or even only appear when NMD is inhibited. Among the many new NMD-targeted isoforms that our analysis identified, most derive from alternative exon usage. The isoform-aware analysis revealed many genes with significant changes in splicing but no significant changes in overall expression levels upon NMD knockdown. NMD-sensitive mRNAs have more exons in the 3΄UTR and, for those mRNAs with a termination codon in the last exon, the length of the 3΄UTRper sedoes not correlate with NMD sensitivity. Analysis of splicing signals reveals isoforms where NMD has been co-opted in the regulation of gene expression, though the main function of NMD seems to be ridding the transcriptome of isoforms resulting from spurious splicing events.ConclusionsLong-read sequencing enabled the identification of many novel NMD-sensitive mRNAs and revealed both known and unexpected features concerning their biogenesis and their biological role. Our data provide a highly valuable resource of human NMD transcript targets for future genomic and transcriptomic applications.

Published

2021

29. Direct long-read RNA sequencing identifies a subset of questionable exitrons likely arising from reverse transcription artifacts

Author

Andrei Thomas-Tikhonenko, Kathi Zarnack, Mukta Asnani, Manuel Torres-Diz, Elena Sotillo, Laura C. Schulz, Yoseph Barash, Mariela Cortés-López, Julian König, Katharina E. Hayer, and Sarah K. Tasian

Subjects

Blinatumomab, QH301-705.5, genetic processes, Short Report, Receptors, Antigen, T-Cell, Datasets as Topic, Computational biology, Biology, QH426-470, Models, Biological, Exon, Antineoplastic Agents, Immunological, hemic and lymphatic diseases, Cell Line, Tumor, Antibodies, Bispecific, Genetics, Humans, Protein Isoforms, natural sciences, Exitrons, RNA, Messenger, Biology (General), Long-read sequencing, mRNA isoforms, Base Pairing, Oxford Nanopore Technologies, B-Lymphocytes, CD19, Base Sequence, Alternative splicing, Intron, RNA, High-Throughput Nucleotide Sequencing, hemic and immune systems, Exons, Reverse Transcription, Precursor Cell Lymphoblastic Leukemia-Lymphoma, Human genetics, Reverse transcriptase, Introns, Alternative Splicing, RNA splicing, Nucleic Acid Conformation, Immunotherapy, Exitron, Artifacts

Abstract

Resistance to CD19-directed immunotherapies in lymphoblastic leukemia has been attributed, among other factors, to several aberrantCD19pre-mRNA splicing events, including recently reported excision of a cryptic intron embedded withinCD19exon 2. While “exitrons” are known to exist in hundreds of human transcripts, we discovered, using reporter assays and direct long-read RNA sequencing (dRNA-seq), that theCD19exitron is an artifact of reverse transcription. Extending our analysis to publicly available datasets, we identified dozens of questionable exitrons, dubbed “falsitrons,” that appear only in cDNA-seq, but never in dRNA-seq. Our results highlight the importance of dRNA-seq for transcript isoform validation.

Published

2021

30. Sequence variants of human tropoelastin affecting assembly, structural characteristics and functional properties of polymeric elastin in health and disease

Author

Robert Lu, Lisa D. Muiznieks, Sean E. Reichheld, Simon Sharpe, and Fred W. Keeley

Subjects

0301 basic medicine, Gene isoform, Sequence (biology), 03 medical and health sciences, 0302 clinical medicine, Tropoelastin, Humans, Genetic Predisposition to Disease, Molecular Biology, Polymorphism, Genetic, biology, Chemistry, Alternative splicing, Elastic matrix, Structural integrity, Elastin, Extracellular Matrix, Alternative Splicing, 030104 developmental biology, 030220 oncology & carcinogenesis, biology.protein, MRNA Isoforms, Biophysics, Protein Multimerization

Abstract

Elastin is the polymeric protein responsible for the physiologically important properties of extensibility and elastic recoil of cardiovascular, pulmonary and many other tissues. In spite of significant advances in the understanding how monomeric tropoelastin is assembled into the polymeric elastic matrix, details of this assembly process are still lacking. In particular it is not clear how the various architectures and more subtle elastic properties required by diverse elastic tissues can arise from the protein product of a single gene. While monomeric tropoelastin has the intrinsic ability to self-assemble into fibrillar structures, it is clear that in vivo assembly is guided by interactions with cells and other matrix-associated components. In addition, the multiplicity of reported mRNA isoforms of human tropoelastin, if translated into protein variants, could modulate not only interactions with these matrix-associated components but also self-assembly and functional properties. Critical information identifying such protein isoforms of human tropoelastin is only now emerging from mass spectrometric studies. Increased levels of complexity of the assembly process provide additional opportunities for production of polymeric elastins with aberrant architectures and sub-optimal functional properties that could affect the longer-term structural integrity of elastic matrices. Biophysical techniques, such as SAXS, NMR and molecular dynamics, have provided a means to discern details of the effects of sequence variants, including both alternate splicing isoforms and genetic polymorphisms, on the dynamic flexibility of elastin required for its elastomeric properties. Such approaches promise to provide important new insights into the relationship between sequence, structural characteristics, assembly and functional properties of elastin in both health and disease.

Published

2019

31. CFIm25 and alternative polyadenylation: Conflicting roles in cancer

Author

Michael R. Hamblin, Hamed Mirzaei, Roxana Sahebnasagh, Mohammad Hassan Jafari Najaf Abadi, Rana Shafabakhsh, Hamid Reza Mirzaei, and Zatollah Asemi

Subjects

0301 basic medicine, Cancer Research, Polyadenylation, Biology, Article, law.invention, 03 medical and health sciences, 0302 clinical medicine, Cyclin D1, law, Cell Line, Tumor, Neoplasms, Gene expression, microRNA, Animals, Humans, Competing endogenous RNA, Cleavage And Polyadenylation Specificity Factor, Cell biology, Gene Expression Regulation, Neoplastic, 030104 developmental biology, Oncology, Growth-promoting factors, 030220 oncology & carcinogenesis, MRNA Isoforms, Suppressor

Abstract

Alternative polyadenylation (APA) is now widely recognized to regulate gene expression. APA is an RNA-processing mechanism that generates distinct 3′ termini on mRNAs, producing mRNA isoforms. Different factors influence the initiation and development of this process. CFIm25 (among others) is a cleavage and polyadenylation factor that plays a key role in the regulation of APA. Shortening of the 3′UTRs on mRNAs leads to enhanced cellular proliferation and tumorigenicity. One reason may be the up-regulation of growth promoting factors, such as Cyclin D1. Different studies have reported a dual role of CFIm25 in cancer (both oncogenic and tumor suppressor). microRNAs (miRNAs) may be involved in CFIm25 function as well as competing endogenous RNAs (ceRNAs). The present review focuses on the role of CFIm25 in cancer, cancer treatment, and possible involvement in other human diseases. We highlight the involvement of miRNAs and ceRNAs in the function of CFIm25 to affect gene expression. The lack of understanding of the mechanisms and regulation of CFIm25 and APA has underscored the need for further research regarding their role in cancer and other diseases.

Published

2019

32. Deep sequencing of pre-translational mRNPs reveals hidden flux through evolutionarily conserved alternative splicing nonsense-mediated decay pathways

Author

Melissa J. Moore, Alicia A. Bicknell, Carrie Kovalak, Scott Donovan, and Mihir Metkar

Subjects

QH301-705.5, Nonsense-mediated decay, Computational biology, QH426-470, Biology, Deep sequencing, Exon junctions, Gene expression, Genetics, Humans, Splicing noise, RNA Processing, Post-Transcriptional, Biology (General), mRNA isoforms, Gene, Gene Library, RIPiT-Seq, Research, Alternative splicing, Computational Biology, High-Throughput Nucleotide Sequencing, Molecular Sequence Annotation, Translation (biology), Biological Evolution, Pre-translational mRNPs, Nonsense Mediated mRNA Decay, Alternative Splicing, HEK293 Cells, Gene Expression Regulation, Ribonucleoproteins, RNA splicing, Exon junction complex, AS-NMD

Abstract

BackgroundAlternative splicing, which generates multiple mRNA isoforms from single genes, is crucial for the regulation of eukaryotic gene expression. The flux through competing splicing pathways cannot be determined by traditional RNA-Seq, however, because different mRNA isoforms can have widely differing decay rates. Indeed, some mRNA isoforms with extremely short half-lives, such as those subject to translation-dependent nonsense-mediated decay (AS-NMD), may be completely overlooked in even the most extensive RNA-Seq analyses.ResultsRNA immunoprecipitation in tandem (RIPiT) of exon junction complex components allows for purification of post-splicing mRNA-protein particles (mRNPs) not yet subject to translation (pre-translational mRNPs) and, therefore, translation-dependent mRNA decay. Here we compare exon junction complex RIPiT-Seq to whole cell RNA-Seq data from HEK293 cells. Consistent with expectation, the flux through known AS-NMD pathways is substantially higher than that captured by RNA-Seq. Our RIPiT-Seq also definitively demonstrates that the splicing machinery itself has no ability to detect reading frame. We identify thousands of previously unannotated splicing events; while many can be attributed to splicing noise, others are evolutionarily conserved events that produce new AS-NMD isoforms likely involved in maintenance of protein homeostasis. Several of these occur in genes whose overexpression has been linked to poor cancer prognosis.ConclusionsDeep sequencing of RNAs in post-splicing, pre-translational mRNPs provides a means to identify and quantify splicing events without the confounding influence of differential mRNA decay. For many known AS-NMD targets, the nonsense-mediated decay-linked alternative splicing pathway predominates. Exon junction complex RIPiT-Seq also revealed numerous conserved but previously unannotated AS-NMD events.

Published

2021

33. Sierra: discovery of differential transcript usage from polyA-captured single-cell RNA-seq data

Author

Patrick, Ralph, Humphreys, David T., Janbandhu, Vaibhao, Oshlack, Alicia, Ho, Joshua W.K., Harvey, Richard P., and Lo, Kitty K.

Published

2020

34. 69 Detection of ITGBL1 mRNA isoforms in ovarian cancer cells

Author

Alexander Jorge Cortez, Katarzyna Aleksandra Kujawa, Katarzyna Lisowska, and Patrycja Tudrej

Subjects

Messenger RNA, Exon, Cell culture, Integrin, Ovarian cancer cells, MRNA Isoforms, biology.protein, Vector (molecular biology), Biology, Molecular biology, Phenotype

Abstract

Previously, we identified a multigene signature related with survival of patients with high-grade serous ovarian cancer (OC).1 2 Among differentially expressed genes was Integrin beta-like 1 (ITGBL1). Our functional studies revealed that ITGBL1 overexpression in ovarian cancer cells resulted in increased invasiveness,3 migration rate, and chemoresistance, while decreased adhesiveness4 and no change in proliferation rate.5 Later it appeared, that 4 mRNA variants of ITGBL1 may exist. The aim of our this study was to evaluate the presence of these variants in several wild-type OC cell lines, including OVPA8 established by our group.6 Next, we analyzed cells with ITGBL1 construct (OAW42-ITGBL1 and SKOV3-ITGBL1) and with an empty PLNCX2 vector. Variant-1 (containing all exons) was prevalent in these cell lines which expressed ITGBL1 (ES2, OVPA8, SKOV3-ITGBL1, and OAW42-ITGBL1). Variant-2 was very low or absent in all cell lines. Variant-3 was present in significant amounts only in OAW42-ITGBL1 and ES2 cells, while variant-4 exclusively in ES2. ES2 cell line was the only expressing all 4 variants. In summary: variant-1 is prevalent and variant-3 is second detectable, both in wild-type OC cells with natural ITGBL1 expression and in OAW42 and SKOV3 cells with ITGBL1 construct. These results confirm the validity of our experimental model and our previous conclusions concerning the influence of ITGBL1 on OC cells phenotype. References Lisowska, et al. (2014), DOI:10.3389/fonc.2014.00006 Lisowska, et al. (2016), DOI:10.1007/s00432-016-2147-y Cortez, et al. (2018), DOI:10.1093/annonc/mdy268.036 Cortez, et al. (2016), DOI:10.1097/01.IGC.0000503327.50238.5c Cortez, et al. (2017), DOI:10.1097/01.IGC.0000527296.86225.87 Tudrej, et al. (2018), DOI:10.3390/ijms19072080

Published

2020

35. Proteomic and Transcriptomic Analysis Identify Spliceosome as a Significant Component of the Molecular Machinery in the Pituitary Tumors Derived from POU1F1-and NR5A1-Cell Lineages

Author

Gloria Silva-Román, Héctor Quezada, Baldomero Gonzales-Virla, Sandra Vela-Patiño, Laura Chávez-Macías, Ernesto Sosa, Aldo Ferreira-Hermosillo, Moisés Mercado, Blas López-Félix, Sophia Mercado-Medrez, Ana Laura Espinosa-de-los-Monteros, Claudia Ramírez-Rentería, Gerardo Guinto, Guadalupe Vargas-Ortega, Erick Gómez-Apo, Daniel Marrero-Rodríguez, Eduardo Peña-Martínez, Ana Laura Guzmán-Ortiz, Etual Espinosa-Cárdenas, and Keiko Taniguchi-Ponciano

Subjects

Adenoma, 0301 basic medicine, Spliceosome, Proteome, molecular markers, lcsh:QH426-470, Biology, Steroidogenic Factor 1, Article, 03 medical and health sciences, Exon, alternative splicing, 0302 clinical medicine, Tandem Mass Spectrometry, Biomarkers, Tumor, Genetics, Humans, Nanotechnology, Protein Isoforms, Cell Lineage, Pituitary Neoplasms, RNA, Messenger, RNA, Neoplasm, Gene, mRNA isoforms, Chromatography, High Pressure Liquid, Genetics (clinical), Oligonucleotide Array Sequence Analysis, Principal Component Analysis, Proteomic Profile, Alternative splicing, RNA, Exons, Hormones, Neoplasm Proteins, Cell biology, lcsh:Genetics, Gene Ontology, 030104 developmental biology, 030220 oncology & carcinogenesis, RNA splicing, Spliceosomes, Gene chip analysis, pituitary adenomas, Transcription Factor Pit-1, Transcriptome, Transcription Factors

Abstract

Background: Pituitary adenomas (PA) are the second most common tumor in the central nervous system and have low counts of mutated genes. Splicing occurs in 95% of the coding RNA. There is scarce information about the spliceosome and mRNA-isoforms in PA, and therefore we carried out proteomic and transcriptomic analysis to identify spliceosome components and mRNA isoforms in PA. Methods: Proteomic profile analysis was carried out by nano-HPLC and mass spectrometry with a quadrupole time-of-flight mass spectrometer. The mRNA isoforms and transcriptomic profiles were carried out by microarray technology. With proteins and mRNA information we carried out Gene Ontology and exon level analysis to identify splicing-related events. Results: Approximately 2000 proteins were identified in pituitary tumors. Spliceosome proteins such as SRSF1, U2AF1 and RBM42 among others were found in PA. These results were validated at mRNA level, which showed up-regulation of spliceosome genes in PA. Spliceosome-related genes segregate and categorize PA tumor subtypes. The PA showed alterations in CDK18 and THY1 mRNA isoforms which could be tumor specific. Conclusions: Spliceosome components are significant constituents of the PA molecular machinery and could be used as molecular markers and therapeutic targets. Splicing-related genes and mRNA-isoforms profiles characterize tumor subtypes.

Published

2020

36. Computational Methods for Predicting Functions at The mRNA Isoform Level

Author

Gaurav Kandoi, Sambit Kumar Mishra, and Viraj Muthye

Subjects

0301 basic medicine, Gene isoform, RNA-Seq, Review, Computational biology, Biology, Catalysis, Inorganic Chemistry, lcsh:Chemistry, 03 medical and health sciences, alternative splicing, 0302 clinical medicine, RNA Isoforms, Animals, Humans, Gene Regulatory Networks, genetics, RNA, Messenger, Physical and Theoretical Chemistry, mRNA isoforms, Molecular Biology, Gene, lcsh:QH301-705.5, Spectroscopy, Regulation of gene expression, Messenger RNA, Mechanism (biology), Organic Chemistry, Alternative splicing, Computational Biology, deep learning, General Medicine, Computer Science Applications, 030104 developmental biology, machine learning, multiple instance learning, lcsh:Biology (General), lcsh:QD1-999, gene ontology, RNA-seq, recommender systems, 030217 neurology & neurosurgery, Function (biology)

Abstract

Multiple mRNA isoforms of the same gene are produced via alternative splicing, a biological mechanism that regulates protein diversity while maintaining genome size. Alternatively spliced mRNA isoforms of the same gene may sometimes have very similar sequence, but they can have significantly diverse effects on cellular function and regulation. The products of alternative splicing have important and diverse functional roles, such as response to environmental stress, regulation of gene expression, human heritable and plant diseases. The mRNA isoforms of the same gene, such as the apoptosis associated CASP3 gene, can have dramatically different functions. The shorter mRNA isoform product CASP3-S inhibits apoptosis, while the longer CASP3-L mRNA isoform promotes apoptosis. Despite the functional importance of mRNA isoforms, very little has been done to annotate their functions. The recent years have however seen the development of several computational methods aimed at predicting mRNA isoform level biological functions. These methods use a wide array of proteo-genomic data to develop machine learning-based mRNA isoform function prediction tools. In this review, we discuss the computational methods developed for predicting the biological function at the individual mRNA isoform level.

Published

2020

37. YQFC: a web tool to compare quantitative biological features between two yeast gene lists

Author

Wei Sheng Wu, Lai Ji Wang, Han Chen Yen, and Yan Yuan Tseng

Subjects

Computer science, Computational Biology, Proteins, Computational biology, Saccharomyces cerevisiae, Web tool, General Biochemistry, Genetics and Molecular Biology, Yeast gene, Database Tool, Databases, Genetic, Feature (machine learning), MRNA Isoforms, AcademicSubjects/SCI00960, Analysis tools, General Agricultural and Biological Sciences, Gene, Software, Information Systems, Statistical hypothesis testing, Omics technologies

Abstract

Nowadays high-throughput omics technologies are routinely used in biological research. From the omics data, researchers can easily get two gene lists (e.g. stress-induced genes vs. stress-repressed genes) related to their biological question. The next step would be to apply enrichment analysis tools to identify distinct functional/regulatory features between these two gene lists for further investigation. Although various enrichment analysis tools are already available, two challenges remain to be addressed. First, most existing tools are designed to analyze only one gene list, so they cannot directly compare two gene lists. Second, almost all existing tools focus on identifying the enriched qualitative features (e.g. gene ontology [GO] terms, pathways, domains, etc.). Many quantitative features (e.g. number of mRNA isoforms of a gene, mRNA half-life, protein half-life, transcriptional plasticity, translational efficiency, etc.) are available in the yeast, but no existing tools provide analyses on these quantitative features. To address these two challenges, here we present Yeast Quantitative Features Comparator (YQFC) that can directly compare various quantitative features between two yeast gene lists. In YQFC, we comprehensively collected and processed 85 quantitative features from the yeast literature and yeast databases. For each quantitative feature, YQFC provides three statistical tests (t-test, U test and KS test) to test whether this quantitative feature is statistically different between the two input yeast gene lists. The distinct quantitative features identified by YQFC may help researchers to study the underlying molecular mechanisms that differentiate the two input yeast gene lists. We believe that YQFC is a useful tool to expedite the biological research that uses high-throughput omics technologies.Database URLhttp://cosbi2.ee.ncku.edu.tw/YQFC/

Published

2020

38. Complex Tissue-Specific Patterns and Distribution of Multiple RAGE Splice Variants in Different Mammals.

Author

López-Díez, Raquel, Rastrojo, Alberto, Villate, Olatz, and Aguado, Begoña

Subjects

*GLYCOSYLATION, *ALTERNATIVE RNA splicing, *GENOMES, *MAMMALS, *PRIMATES, *ARTIODACTYLA, *RODENTS

Abstract

The receptor for advanced glycosylation end products (RAGE) is a multiligand receptor involved in diverse cell signaling pathways. Previous studies show that this gene expresses several splice variants in human, mouse, and dog. Alternative splicing (AS) plays an important role in expanding transcriptomic and proteomic diversity, and it has been related to disease. AS is also one of the main evolutionary mechanisms in mammalian genomes. However, limited information is available regarding the AS of RAGE in a wide context of mammalian tissues. In this study, we examined in detail the different RAGE mRNAs generated by AS from six mammals, including two primates (human and monkey), two artiodactyla (cow and pig), and two rodentia (mouse and rat) in 6–18 different tissues including fetal, adult, and tumor. By nested reverse transcription-polymerase chain reaction (RT-PCR) we identified a high number of splice variants including noncoding transcripts and predicted coding ones with different potential protein modifications affecting mainly the transmembrane and ligand-binding domains that could influence their biological function. However, analysis of RNA-seq data enabled detecting only the most abundant splice variants. More than 80% of the detected RT-PCR variants (87 of 101 transcripts) are novel (different exon/intron structure to the previously described ones), and interestingly, 20–60% of the total transcripts (depending on the species) are noncoding ones that present tissue specificity. Our results suggest that RAGE undergoes extensive AS in mammals, with different expression patterns among adult, fetal, and tumor tissues. Moreover, most splice variants seem to be species specific, especially the noncoding variants, with only two (canonical human Tv1-RAGE, and human N-truncated or Tv10-RAGE) conserved among the six different species. This could indicate a special evolution pattern of this gene at mRNA level. [ABSTRACT FROM AUTHOR]

Published

2013

39. Expression analisis of the ITSN2 and TKS5 mRNA isoforms in human malignant breast tumors

Author

T. Ye. Tarasenko, A. N. Grabovoy, S. V. Kropyvko, Olga Novokhatska, L. O. Tsyba, L. A. Syvak, and Alla Rynditch

Subjects

Expression (architecture), MRNA Isoforms, Biology, Molecular biology

Abstract

Aim. Despite the great progress in cancer treating, the breast cancer remains lethal in 15 % cases. Regardless of the many years of research and extensive experience in the treatment of this type of cancer, one of the main problems in diagnosis and therapy is its high clinical and genetic heterogeneity. Thereby the identification of markers for personalized treatment of patients is still an actual issue. Methods. Collection of clinical material, RNA isolation, and expression analysis of ITSN2 and TKS5 isoforms using quantitative real time PCR with fluorescence-labeled probes. Results. We have found that ITSN2-S expression is reliably reduced in HER2/neu-positive tumors with poor prognosis. There were no significant differences in the expression of ITSN2-L and TKS5-L in the analyzed samples. Conclusions. These studies have demonstrated the possible use of ITSN2 short isoform (ITSN2-S) as a prognostic marker for breast cancer. Keywords: breast cancer, ITSN2, TKS5, expression analysis.

Published

2018

40. Sierra: Discovery of differential transcript usage from polyA-captured single-cell RNA-seq data

Author

David T. Humphreys, Joshua W. K. Ho, Alicia Oshlack, Kitty Lo, Vaibhao Janbandhu, Richard P. Harvey, and Ralph Patrick

Subjects

Gene isoform, Untranslated region, Polyadenylation, lcsh:QH426-470, genetic processes, Method, RNA-Seq, Computational biology, Biology, Transcriptome, 03 medical and health sciences, Mice, 0302 clinical medicine, Single-cell analysis, scRNA-seq, Gene expression, Animals, Humans, natural sciences, Gene, 3' Untranslated Regions, mRNA isoforms, lcsh:QH301-705.5, 030304 developmental biology, Regulation of gene expression, 0303 health sciences, Messenger RNA, Sequence Analysis, RNA, Three prime untranslated region, Myocardium, RNA, Alternative polyadenylation, Differential transcript use, Cell sorting, lcsh:Genetics, Gene Expression Regulation, lcsh:Biology (General), 030220 oncology & carcinogenesis, Leukocytes, Mononuclear, Single-Cell Analysis, Poly A, Software

Abstract

Background High-throughput single-cell RNA-seq (scRNA-seq) is a powerful technology for studying gene expression variability in single cells; however, standard analysis approaches only consider the overall expression of each gene, masking additional heterogeneity that could exist through cell type-specific expression of alternative mRNA transcripts. Results Here we show that differential transcript usage (DTU) can be readily detected in data-sets generated from commonly used polyA-captured nanodroplet scRNA-seq technology. Our computational pipeline, Sierra, detects and quantifies polyadenylation sites in scRNA-seq data-sets, which are utilised to evaluate DTU between single-cell populations. We validate our approach by comparing cardiac cell populations derived from scRNA-seq to bulk RNA-seq of matched populations obtained through fluorescent activated cell sorting (FACS), demonstrating that we detect a significant overlap in cell-type DTU between the congruous data-sets. We further illustrate the utility of our method by detecting alternative transcript usage in human peripheral blood mononuclear cells (PBMCs), 3’UTR shortening in activated and proliferating cardiac fibroblasts from injured mouse hearts and finally by building an initial atlas of cell type-specific transcript usage across 12 mouse tissues. Conclusions We anticipate that Sierra will enable new avenues of transcriptional complexity and regulation to be explored in single-cell transcriptomic experiments. Sierra is available at https://github.com/VCCRI/Sierra .

Published

2019

41. PSI-B-14 Late-Breaking: Evaluation of mRNA isoforms expression profile using two approaches to measure meat tenderness from Longissimus thoracis muscle in beef cattle

Author

Maria Malane Magalhães Muniz, Danielly Beraldo dos Santos Silva, Arthou Loyola Chardulo, Ana Fabrícia Braga Magalhães, Lucia Galvão de Albuquerque, Isabel Gomez Redondo, Fernando Baldi, Larissa Fernanda Simielli Fonseca, Angela Cánovas, and Jesus Aparecido Ferro

Subjects

Andrology, Longissimus thoracis muscle, Meat tenderness, Genetics, MRNA Isoforms, Animal Science and Zoology, General Medicine, Biology, Beef cattle, POSTER PRESENTATIONS, Food Science

Abstract

The Warner-Bratzler shear force (WBSF) and myofibrillar fragmentation index (MFI) are complementary methodologies commonly used to measure beef tenderness. To identify mRNA isoforms differentially expressed became an important tool to provide new insights to better understand the transcripts involved in the regulation of the meat tenderness, using MFI and WBSF measures in Nellore beef cattle. Longissimus thoracis muscle samples from the 20 most extreme bulls (out of 80 bulls set) for WBSF [tender (n = 9) and tough (n = 10) groups] and MFI [high (n = 10) and low (n = 10) groups] traits were collected to perform transcriptomic analysis using RNA-Sequencing. The CLC Genomics Workbench v.12.0 was used to align the fragments of each sample to the bovine reference genome ARS.UCD1.2. An average of 37 million transcripts were expressed in the Nellore muscle transcriptome. A total of 41 and 31 mRNA isoforms were differentially expressed (q≤0.05 and Fold Change greater than 2) between the two groups of divergent bulls for WBSF and MFI traits, respectively. The RPL14-202 mRNA isoform was the only isoform differentially expressed in common between both traits and is one of two known transcripts of the RPL14 gene. The RPL14 gene contains a trinucleotide repeat tract whose length is highly polymorphic and has several biochemical functions. Bulls with tender meat have one base insertion inside this region and possibly has splice site disruption effects. The RPL14-202 mRNA isoform could be used as potential biological marker for beef tenderness. The identified differentially expressed mRNA isoforms (ACTA1-202, ACTN3-201, MYL6-202, MYL6-201, MYBPC2-202) were involved with skeletal muscle cell differentiation, negative regulation of sarcomere organization and regulation of skeletal muscle contraction. mRNA isoforms directly associated with muscle development were identified using different approaches to measure beef tenderness suggesting potential key regulator genes and biomarkers associated with an important consumer valued trait for the beef industry.

Published

2019

42. RNA-Seq reveals differentially expressed isoforms and novel splice variants in buccal mucosal cancer

Author

Jakhesara, Subhash J., Koringa, Prakash G., Bhatt, Vaibhav D., Shah, Tejas M., Vangipuram, Shankar, Shah, Siddharth, and Joshi, Chaitanya G.

Subjects

*NUCLEOTIDE sequence, *ORAL cancer, *RNA splicing, *GENETIC markers, *REVERSE transcriptase polymerase chain reaction, *PROGNOSTIC tests, *GENETICS

Abstract

Abstract: Buccal mucosal cancer (BMC) is a multifactorial disease with poorly defined genetic profile and prognosis due to late detection stage and unavailability of reliable prognostic markers. To identify aberrant transcriptional events, we employed high throughput RNA-Seq analysis of BMC and normal tissue. Comparative transcriptome analysis with Cufflinks revealed 260 up and 328 down regulated genes whereas, 350 up and 397 down regulated isoforms by at least two folds over buccal normal in BMC. Study revealed 46 splice variants in normal and 106 in cancer, out of which 10 variants were validated with end point RT-PCR. Expression of two isoforms of CD74 was validated using RT-qPCR and found in accordance with RNA-Seq. Further extensive follow up analysis of modulator genes, isoforms and splice variants found in this study, might be useful in deep understanding of pathological changes in BMC and development of prospective intervention strategies. [Copyright &y& Elsevier]

Published

2013

43. TIPMaP: a web server to establish transcript isoform profiles from reliable microarray probes.

Author

Chitturi, Neelima, Balagannavar, Govindkumar, Chandrashekar, Darshan S., Abinaya, Sadashivam, Srini, Vasan S., and Acharya, Kshitish K.

Subjects

*INTERNET servers, *DNA microarrays, *GENE expression, *MESSENGER RNA, *TISSUES

Abstract

Background Standard 3' Affymetrix gene expression arrays have contributed a significantly higher volume of existing gene expression data than other microarray platforms. These arrays were designed to identify differentially expressed genes, but not their alternatively spliced transcript forms. No resource can currently identify expression pattern of specific mRNA forms using these microarray data, even though it is possible to do this. Results We report a web server for expression profiling of alternatively spliced transcripts using microarray data sets from 31 standard 3' Affymetrix arrays for human, mouse and rat species. The tool has been experimentally validated for mRNAs transcribed or not-detected in a human disease condition (non-obstructive azoospermia, a male infertility condition). About 4000 gene expression datasets were downloaded from a public repository. 'Good probes' with complete coverage and identity to latest reference transcript sequences were first identified. Using them, 'Transcript specific probe-clusters' were derived for each platform and used to identify expression status of possible transcripts. The web server can lead the user to datasets corresponding to specific tissues, conditions via identifiers of the microarray studies or hybridizations, keywords, official gene symbols or reference transcript identifiers. It can identify, in the tissues and conditions of interest, about 40% of known transcripts as 'transcribed', 'not-detected' or 'differentially regulated'. Corresponding additional information for probes, genes, transcripts and proteins can be viewed too. We identified the expression of transcripts in a specific clinical condition and validated a few of these transcripts by experiments (using reverse transcription followed by polymerase chain reaction). The experimental observations indicated higher agreements with the web server results, than contradictions. The tool is accessible at http://resource.ibab.ac.in/TIPMaP. Conclusion The newly developed online tool forms a reliable means for identification of alternatively spliced transcript-isoforms that may be differentially expressed in various tissues, cell types or physiological conditions. Thus, by making better use of existing data, TIPMaP avoids the dependence on precious tissue-samples, in experiments with a goal to establish expression profiles of alternative splice forms - at least in some cases. [ABSTRACT FROM AUTHOR]

Published

2013

44. Developmentally regulated alternate 3' end cleavage of nascent transcripts controls dynamic changes in protein expression in an adult stem cell lineage.

Author

Berry CW, Olivares GH, Gallicchio L, Ramaswami G, Glavic A, Olguín P, Li JB, and Fuller MT

Subjects

3' Untranslated Regions genetics, Animals, Male, Polyadenylation, Protein Isoforms genetics, RNA, Messenger genetics, RNA, Messenger metabolism, Adult Stem Cells metabolism, RNA Isoforms metabolism

Abstract

Alternative polyadenylation (APA) generates transcript isoforms that differ in the position of the 3' cleavage site, resulting in the production of mRNA isoforms with different length 3' UTRs. Although widespread, the role of APA in the biology of cells, tissues, and organisms has been controversial. We identified >500 Drosophila genes that express mRNA isoforms with a long 3' UTR in proliferating spermatogonia but a short 3' UTR in differentiating spermatocytes due to APA. We show that the stage-specific choice of the 3' end cleavage site can be regulated by the arrangement of a canonical polyadenylation signal (PAS) near the distal cleavage site but a variant or no recognizable PAS near the proximal cleavage site. The emergence of transcripts with shorter 3' UTRs in differentiating cells correlated with changes in expression of the encoded proteins, either from off in spermatogonia to on in spermatocytes or vice versa. Polysome gradient fractionation revealed >250 genes where the long 3' UTR versus short 3' UTR mRNA isoforms migrated differently, consistent with dramatic stage-specific changes in translation state. Thus, the developmentally regulated choice of an alternative site at which to make the 3' end cut that terminates nascent transcripts can profoundly affect the suite of proteins expressed as cells advance through sequential steps in a differentiation lineage., (© 2022 Berry et al.; Published by Cold Spring Harbor Laboratory Press.)

Published

2022

45. Alternative polyadenylation produces multiple 3’ untranslated regions of odorant receptor mRNAs in mouse olfactory sensory neurons

Author

Doulazmi, Mohamed, Cros, Cyril, Dusart, Isabelle, Trembleau, Alain, and Dubacq, Caroline

Published

2019

46. Expression pattern of SVEP1 alternatively-spliced forms

Author

Glait-Santar, Chen, Pasmanik-Chor, Metsada, and Benayahu, Dafna

Subjects

*GENE expression, *CELL adhesion molecules, *MESSENGER RNA, *PROMOTERS (Genetics), *GLYCERALDEHYDEPHOSPHATE dehydrogenase, *IMMUNOPRECIPITATION, *BREAST cancer

Abstract

Abstract: SVEP1 is a multi-domain protein recognized as a cell adhesion molecule (CAM). In this study, we focused on the activity regulation of an alternative promoter (AP) and the expression of alternative splice forms of mRNA from SVEP1 gene. The expression of SVEP1 isoforms was analyzed on RNA isolated from pre-osteoblastic MBA-15 and mammary adenocarcinoma DA3 cells grown alone or following co-culture between these cells. The co-culture system aimed to mimic the cellular cross talk that exists in the bone microenvironment once the mammary cells invade the bone. We demonstrated that SVEP1 isoforms were differentially expressed between these cells. The various isoforms levels were affected by co-culturing or in cells treated with TNFα or estrogen. Both cell lines exhibited an increase of message levels of a and e isoforms following the co-culture conditions. A novel aspect presented here is related to existence of an alternative promoter (AP) in SVEP1 gene. The AP was in silico predicted and analyzed for binding by specific transcription factors (TFIIB, ERα, NF-κB, Sp1 and pcJUN) using Chromatin immunoprecipitation (ChIP) assay. The binding of these TFs results in a non uniform binding pattern when comparing between the DA3 and MBA-15 cells. Using the demethylation agent, 5′-aza-deoxycitidine and histone deacetylase inhibitor, Trichostatin-A allowed to study the methylation level of the AP and the message expression. This study provides insights into alternative splice forms of SVEP1 and their regulation that may play a role within the bone niche with invading carcinoma cells. [Copyright &y& Elsevier]

Published

2012

47. On selecting mRNA isoform features for profiling prostate cancer

Author

Nair, T. Murlidharan

Abstract

Abstract: Alternative splicing of human pre-mRNA is a very common phenomenon and is a major contributor to proteome diversity. mRNA isoforms that arise as a result of alternative splicing also provide a more complete picture of the transcriptome as they reflect the additional processing a pre-mRNA undergoes before being translated into a functional product. It has been reported that molecular alterations of cells can occur as a result of the differential expression of mRNA isoforms, resulting in cancerous or normal tissue. Quantification of mRNA isoforms can thus be used as a better indicator in distinguishing a normal tissue from a cancerous tissue. In our earlier study we had used mRNA isoforms expression to identify biomarkers for prostate cancer (Li et. al, 2006. Cancer Res. 66 (8) 4079–4088). Here we have used statistical methods of multiple comparison and have developed a simple scoring scheme to extract isoform features. Further, we have rigorously analyzed the isoform expression data to understand the variability and heterogeneity associated with the expression levels between (i) prostate cancer cell lines and non-prostate cancer cell lines and (ii) normal prostate tissue and prostate cancer tissue. We found that there were several isoforms that showed significant difference in expression within the same class. We were also able to successfully identify isoforms with similar changes in expression levels, that when used as features for classification was able to provide robust class separation. The features selected using the multiple comparison methods had subsets that were common and disparate with those that were selected using statistical t-tests. This reveals the importance of selecting features using a combination of complementary methods. [Copyright &y& Elsevier]

Published

2009

48. Human TRB3 is upregulated in stressed cells by the induction of translationally efficient mRNA containing a truncated 5′-UTR

Author

Örd, Tiit, Örd, Daima, Kõivomägi, Mardo, Juhkam, Kadri, and Örd, Tõnis

Subjects

*PROTEIN kinases, *PHYSIOLOGICAL stress, *CELL physiology, *GENETIC regulation, *MESSENGER RNA, *NON-coding RNA, *METABOLISM, *PROTEIN synthesis, *GENETIC transcription

Abstract

Abstract: Tribbles homolog 3 (TRB3) is a pseudokinase that has been implicated in the control of stress response, cell viability and metabolic processes, and has been linked to medical conditions, including insulin resistance, cardiovascular disease and diabetes. Therefore, the understanding of mechanisms that regulate TRB3 expression is of considerable importance. We have previously described the existence of several human (h) TRB3 mRNA isoforms that differ in their 5′-untranslated region (5′-UTR). In this study, we use a reverse transcription-quantitative polymerase chain reaction (RT-qPCR) system to characterize the expression levels of hTRB3 mRNA isoforms in HepG2 hepatoma cells cultured in regular medium or exposed to arsenite, and investigate the effect of hTRB3 5′-UTR variants on the efficiency of mRNA translation. The data indicate that of the hTRB3 mRNA splice variants, 1A is predominant (>80% of molecules) in both the stressed and unstressed states, and that the remainder consists mainly of 1B4, with the variants 1B1, 1B2 and 1B3 together forming less than 1% of the population in either condition. In addition to the substantial transcriptional upregulation of all hTRB3 mRNA splice variants, the exposure of cells to arsenite results in a marked increase in the proportion of splice variant 1A molecules containing a truncated 5′-UTR. The shortened 1A 5′-UTR proved to be translationally more efficient than the untruncated 1A 5′-UTR, due to the lack of an inhibitory upstream open reading frame (uORF). Thus, increased transcription as well as altered usage of 5′-UTR variants contributes to the upregulation of hTRB3 protein synthesis in stressful conditions. [Copyright &y& Elsevier]

Published

2009

49. AspAlt: A tool for inter-database, inter-genomic and user-specific comparative analysis of alternative transcription and alternative splicing in 46 eukaryotes

Author

Bhasi, Ashwini, Philip, Philge, Sreedharan, Vipin T., and Senapathy, Periannan

Subjects

*GENOMICS, *MESSENGER RNA, *HEREDITY, *GENETIC regulation

Abstract

Abstract: We have developed AspAlt—a web-based comparative analytical platform for exploring the variations in alternative transcription (AT) events and alternative splicing (AS) events in eukaryotes. AspAlt provides integrated access to 2.1 million AT–AS annotations from 1,58,876 multi-isoform genes and has the following user-friendly analytical features: (1) advanced graphical display to visualize and analyze AT–AS events in 46 eukaryotic genomes; (2) compare and identify the differences in AT–AS patterns among a group of genes specified by the user or among homologous gene groups; (3) inter-database comparative viewer to analyze the differences in the AT–AS annotations for the same gene among Ensembl, RefSeq and AceView databases; (4) dynamically classify and generate graphical plots of AT–AS events from mRNA annotations submitted by the user; and (5) download genomic AT–AS annotations of 46 eukaryotes in XML and tab-delimited formats. The AspAlt resource is available at http://66.170.16.154/AspAlt. [Copyright &y& Elsevier]

Published

2009

50. Alternative polyadenylation signals in the 3′ non-coding region of a voltage-gated potassium channel gene are major determinants of mRNA isoform expression

Author

Jang, Gwendolyn M., Tanaka, Brian S., Gutman, George A., Goldin, Alan L., and Semler, Bert L.

Subjects

*MESSENGER RNA, *GENE expression, *CELL lines, *CELL culture

Abstract

Abstract: We investigated the role of the 3′ non-coding region of a mouse voltage-gated potassium channel mRNA (mKv1.4 mRNA) in post-transcriptional regulation of gene expression. In contrast to an earlier report from studies carried out in Xenopus oocytes, we found that 3′ non-coding region sequences of mKv1.4 mRNAs did not significantly affect expression of a heterologous reporter RNA in vitro or in mammalian cells/cell lines. Instead, our data revealed a possible role for alternative polyadenylation mediated by distinct determinants ∼0.2 kb and ∼1.2 kb downstream of the Kv1.4 coding region. The use of the downstream polyadenylation signal correlated with the synthesis of a larger Kv1.4 mRNA isoform that was more abundantly expressed than the smaller mRNA species, whose expression was regulated by the upstream polyadenylation signal. Our results suggest that the relative strengths of the polyadenylation signals are major determinants of overall Kv1.4 mRNA abundance in cells. [Copyright &y& Elsevier]

Published

2008